Assay Assembly

Assay Assembly is technique used in drug discovery to develop assays to test the cytotoxicity, genotoxicity, or other activities of a compound on a cell. Assay assembly requires chip assembly, a delivery system and a detection and analysis method. Beneficial features of assay kits or automated systems include high-throughput, high speed and sensitivity and low signal to noise ratio.

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The POLARstar Omega is a multi-mode microplate reader that can perform all microplate based assays, including fluorescence polarization (FP) experiments.
Having Simultaneous Dual Emission (SDE) detection, it can capture two emissio... Read more...

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The SPECTROstar Omega microplate reader is a part of the BMG LABTECH’s family of readers that contain a CCD-based spectrometer for ultra-fast, full spectrum absorbance measurements.
In less than 1 second per well, this spectr... Read more...

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LUMIstar Omega - Flexible Luminometer for Measuring Flash and Glow Luminescence
The LUMIstar Omega is a compact and modular microplate luminescence reader that is designed for the widest possible range of applications based on lumines... Read more...

The Corning Osteo Assay surface is an inorganic crystalline calcium phosphate coating on a polystyrene plate designed to mimic in vivo bone environment. The surface is intended to facilitate a variety of bone cell assays including immuno... Read more...

IRDye 680LT dye is highly soluble in water and is significantly brighter and more photostable than many other 700 nm near-infrared dyes. The spectral characteristics of IRDye 680LT are well suited for use on LI-COR imaging instruments wit... Read more...

IRDye 680RD is the near-infrared fluorescent dye of choice for small animal imaging applications in the 700 nm wavelength. This infrared dye is ideal for labeling proteins, peptides and antibodies. This dye gives optimal performance in ... Read more...

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iTAg™ MHC Tetramer Technology Prior to the development of Class I and Class II MHC Tetramers, identification of antigen-specific T cells was limited due to lack of sensitivity and specificity in existing technology. Now with unparalleled... Read more...

Prior to the development of Class I and Class II MHC Tetramers, identification of antigen-specific T cells was limited due to lack of sensitivity and specificity in existing technology. Now with unparalleled iTAg MHC Tetramer technology, M... Read more...